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Full Description
Advances and Technology Development in Greenhouse Gases: Emission, Capture and Conversion is a comprehensive series that discusses the composition and properties of greenhouse gases (GHGs) and introduces different sources of GHGs' emission and the relation between GHGs and global warming. The comprehensive and detailed presentation of common technologies as well as novel research related to all aspects of GHGs makes this work an indispensable encyclopedic resource for researchers in academia and industry.
Carbon Capture Technologies is devoted to efficient technologies utilized for separating carbon-made GHGs. Section 1 reviews carbon capture concepts followed by a meticulous investigation of different classes of capture methods. Section 2 surveys the absorption process, including amines, physical absorbents, ionic liquids, and deep eutectic and nanoparticle-enhanced solvents. Section 3 addresses adsorption-based strategies with a focus on the role of different solid adsorbents. Section 4 introduces technologies that benefit from membranes and considers different materials utilized in the fabrication of membranes. Finally, Section 5 deals with other as state-of-the-art alternatives in carbon capture.
Contents
Section I: Carbon Capture Concepts
1. Introduction to carbon capture methods and technologies
2. Energy penalties of CO2 capture technologies
3. The largest operating pilots and plants for carbon capture
Section II: Absorption Techniques for Carbon Capture
4. Application of amines for carbon capture
5. Physical and hybrid solvents for carbon capture: ethers, ammonia, methanol, etc.
6. Carbon capture using alkaline solvents: carbonates and hydroxides
7. Ionic liquids and deep eutectic solvents for carbon capture
8. Carbon capture by solvents modified with nanoparticles
9. Carbon capture by encapsulated liquid sorbents
10. Novel gas-liquid contactors for carbon capture: Mini- and micro-channels, and rotating packed beds
11. Cryogenic-fractionation for carbon capture
12. Enzymatic carbon capture
13. Economic assessments and environmental challenges of carbon capture using absorption techniques
Section III: Adsorption Techniques for Carbon Capture
14. Swing technologies for carbon capture: pressure, thermal, vacuum, electrical and mixed swing processes
15. Carbon capture by carbonaceous sorbents
16. Nitrogen containing carbon materials for carbon capture
17. Metal oxides and porous-based sorbents for carbon capture: MOFs, MCMs, SBAs, Zeolites, etc.
18. CO2 adsorption over photocatalysts
19. Alkaline adsorbents for carbon capture
20. Polymeric materials for carbon capture
21. CO2 capture using algae
22. CO2 capture by soil
23. Economic assessments and environmental challenges of carbon capture using adsorption techniques
Section IV: Membrane Technology for Carbon Capture
24. Hollow-fiber membranes for carbon capture and separation
25. Carbon capture and separation by polymeric membranes for
26. Carbon capture and separation by ionic liquid membranes
27. MOF mixed matrix membranes for carbon capture and separation
28. Dense metal membranes for carbon capture and separation
29. Application of electrochemical membranes for carbon capture and separation
30. Economic assessments and environmental challenges of carbon capture using membrane techniques
Section V: Other Technologies for Carbon Capture
31. Oxy-fuel combustion as a carbon capture technique
32. Recent advances and new concepts of carbon capture
